Corneal aligning means for trial frames



Dec. 16, 1947, w, F; PECK HAL" I 432,676

CORNEAL ALIGNING MEANS FOR TRIAL FRAMES Original Filed Oct. 24, 1959 s Sheets-Sheet 1 a nun/03"?" QM INVENTOR.

WILL/HI F- PEG/f ALB/N A. GRAD/5A2 Dec. 16, 1947.

W. F. PECK El AL CORNEAL ALIGNING MEANS ,FOR TRIAL FRAMES 5 Sheets-Sheet 2 Original Filed Oct. 24, 1939 INVENTOR. WILLIAM F. PE'CK BY nus/1v A. ammsmz fia aw Dec. 16, 1947. w. F. PECK ETAL CORNEAL ALIGNING MEANS FOR TRIAL FRAMES Original Filed Oct. 24, 1939 5 Sheets-Sheet s I I v I 234 v INVENTOR.

y WILLIAM F. PECK ALB/N A. a/zAmsAQ I v m a m Patented Dec. 16, 1947 CORNEAL ALIGNING MEANS FOR TRIAL FRAMES William F. Peck and Albin A. Gradisar, Buffalo, N. Y., assignors to American Optical Company, Southbridge, Mass., a voluntary association of Massachusetts Application July 31, 1941, Serial No. 404,854, which is a division of application Serial No. 301,006, October 24, 1939. Divided and this application September 22, 1943, Serial No. 503,332

6 Claims.

This invention relates to improvements in trial frames and has particular reference to a trial frame which maybe quickly and easily adjusted to the facial requirements of different individuals and adapted for use in supporting trial test lenses before the eyes of an individual.

The application is a division of our co-pending application Serial No. 404,854, filed July 31, 1941 and issued on November 9, 1943 as Patent No. 2,333,738, which in turn is a division of application Ser. No. 301,006 filed October 24, 1939 and issued on September 23, 1941 as Patent No. 2,256,.- 491.

One of the prime objects of the invention is to provide a light weight trial frame of the above character with simple and efficient operable parts whereby the trial frame may be quickly and easily adjusted to the facial requirements of an individual and with the adjustable parts maintaining a rigid and positive adjusted relation with each other.

Another object of the invention is to provide improved means for supporting trial test lenses before the eyes of an individual with the lenses before each eye mathematically spaced relative to each other and to the cornea of the eyes of said individual to give exact additive effective power when test lenses of the additive type are used whereby said means may be adjusted to the facial requirements of an individual while maintaining parts in rigid adjusted relation with each other and which is rigidly and accurately built whereby the parts will not become displaced or strained during normal use and accuracy and ease of operation is achieved throughout the life of the instrument.

Another object is to provide novel corneal aligning means and cooperating novel means for adjusting a trial frame of the above character to position the lens cells in desired spaced relation with the lenses and to fit the trial frame generally to the facial characteristics of an individual to be tested.

Another object is to provide a trial frame with temple supports located above the useful field of side vision and above the pupil of the eye when in position of use on the face when the eyes are held for straight ahead vision.

Another object is to provide an arrangement whereby the lens cells of the trial frame of the character described may be quickly and easily adjusted in varying spaced relation with each other according to the interpupillary requirements of an individual.

Another object is to provide the corneal aligning device which has a three point aligning function or gunsight function in locating the lenses in desired relation with the eyes.

Other objects and advantages of the invention will become apparent from the following description taken in connection with the accompanying drawings and it will be apparent that any modification might be made in the detail of construction and arrangement of parts shown and described without departing from the spirit of the invention as expressed in the accompanying claims. We, therefore, do not wish to be limited to the exact details and arrangements shown and described as the preferred form only has been given by way of illustration.

Referring to the drawings:

Fig, I is a plan view of the device embodying the invention;

Fig. II is a front elevation of said device;

Fig. III is a side elevation of said device;

Fig. IV is an enlarged fragmentary face view of the nose rest supporting means;

Fig. V is a sectional view taken as on line of Fig. IV.

Fig, VI is a fragmentary enlarged sectional view taken as on line VI-VI of Fig. II;

Fig. VII is a fragmentary enlarged sectional View taken as on line VII-VII of Fig. I;

Fig, VIII is an enlarged face view of one of the lens cells of the device embodying the invention;

Fig. IX is a sectional view taken as on line IXIX of Fig. VIII;

Fig. X is a fragmentary partially sectional plan view of the corneal aligning means diagrammatically illustrating its use;

Fig. XI is a side elevation of the corneal aligning means illustrated in Fig. X;

Fig. XII is an enlarged fragmentary partial sectional view taken on as line XIIXII of Fig. III; and

Fig. XIII is an enlarged section of a portion of Fig. II.

Fig, XIV is a fragmentary partial sectional view of the corneal aligning means in closed position.

Trial frames for supporting trial test lenses before the eyes of an individual have heretofore been constructed with various adjustable parts whereby the frame could be fitted to the facial characteristics of an individual whose eyes were to be tested. The difficulty, however, with most of these prior art trial frames was that the parts could not be adjusted in a simple and efiicient manner and would not retain their adjusted relation during use. The Parts would oon be- 3 come worn and wobbly and would not retain the lenses in proper relation with the eyes. Most prior art trial frames,- even when provided with corneal aligning means. did not insure that the said lenses were properly positioned in spaced relation with the eyes. This was due to the fact that most of such corneal aligning means had a single point alignment with the cornea of the eye.

Most prior art trial frames also had their temple supporting means located at the geometrical centers of the lens supporting means along the horizontal meridian of said means so that the examiner or practitioner could not obtain a clear view of the eyes. during the fitting of the trial frame to the face and when positioning the lens cells in desired spacial relation with the eyes.

It is therefore one of the primary objects of this invention for a trial frame to have its temple supporting means located above the useful field of vision whereby the examiner or practitioner can obtain a clear view of the eyes during the aligning. of the lens cells therewith, which will give. the accurate angle of temple relative to the point of the lenses of the mounting which is tobe primarily used for the accu rate locating of the lens. cells and lenses and equalspaced relation with the eyesthrough the provision of a three pointsighting when aligning the corneal aligning means with the cornea ofthe eye, which is light inweight, has simple and efficiently operable parts whereby the frame may be quickly and easily adjustedto the facial requirements of an individual and with the adjustable parts maintaining a. rigid and positlve adjusted relation. with each. other, and the method of making the same.

Referring more particularly. to. the drawings wherein like characters. of; reference designate like parts. throughout the several views, the device embodying the invention comprises a head I having longitudinal. slideways 2 therein. In each slideway 2 there is mounted a slide block 3, see Fig. VI. Each of. theslide block 3 have a threaded stem 4 extending therefrom in the direction of the longitudinal axes ofthe slide- Ways 2. The stem- 4, asillustrated in Figs. II and XIII, is. received within the threaded bore 5 of a hollow member 6 having a finger grip and l thereon. A member 6. is. provided. with an externally threaded end portion 8 threadedly supported within the threaded bore of, a sleeve ll secured to the head I by aset screw or the -ke H) in axial alignment with. the slideway 2.

The threads. of the stem 4 are-opposite to those I of the external threaded endv 8 of the member 5. For. example, the thread of the stem 4 in one instance is a left hand thread, preferably a double thread, and the threads of the external threaded end 8 are right hand threads. The threads for the respective portion on the other end of the head are in reverse order. It is to be noted that when the finger grip end, I is rotated the threaded end 8 of the member 5 wil1 cause said. member to move longitudinally of the sleeve 9 either. in. or outdepending upon the direction of rotation of the member 6. Simultaneous to the movement of. the member 5, longitudinally of; the sleeve 9 through its thread connection 8 with the said sleeve, the

threaded stem 4 will be drawn inwardly or outwardly of. the hollow member. 6. The arrangement is such. that. when the member 5 is threaded ina direction inwardly of the sleeve 9 the stem 4 will be threaded in a direction outwardly of the bore of the sleeve 9. This causes the speed of movement of the slide block 3 longitudinally of the slideway 2 to. be greatly increased over the similar movement which might be introduced by a single thread connection. The head I has two slideways 2 therein and the slideblock and associated mechanism similar to that set forth above are associated with each of said slideways. To each of the slide blocks 3 there is attached, by suitable projections H, lens cell supporting members l2; The projections H are secured to the slide blocks 3 by soldering, welding or by rivets or the like I3, as illustrated by dotted lines in Fig. VI. When the slideblocks 3 therefore are moved longitudinally of the slideways 2, the lens cells l2 connected with said slideblocks through the projections II, will be simul taneously moved toward or away from each other. The lens cells I2, as shown in enlarged scale in Figs. VIII and IX, each comprise annular like members [4 formed integral with the projections and with the annular portions thereof lying in a single plane. The annular like members I4 each. have a recessed side surface l5 in which is fitted annular gear members 6. The depth of each recess 15 is such that the outer surface of said annular gear members will lie substantially flush with the adjacent side surface of the annular like members I l. The annular gear members IE5 are each frictionally secured to a ring ll rotatably fitted within the central opening of the annular-like members [4. The rings I! each have an integral flanged portion l8 having an intermediate step like shoulderedportion l9 against which the annular gear 16 rests when in frictional engagement. with the ring ll. The shouldered step-like portion l9 forms a space 20 between the gear [6' and the flanged portion l8 of the ring ll. Within. this space there is mounted a. plate 21 of an arcuate shape. The plate 2| is secured' to the annular like members M by screws or the like 22. The plate 2! functions to rotatably support the gear E6 in the annular like member 14. The gear It being frictionally secured to the. ring I? thereby retains the ring in. associated relation with the annular member M. The flanged portion it functions to conceal the gear withinthe recess E6. The rings II which are secured to the gears l6 are adapted. to. rotate with said gears internally of the. annular like. members it and are each provided with spaced. studs 23 and E i. The studs 23 and 24 are each provided with a plurality of spaced notches 25 in which auxil iary trial lenses are adapted to be supported. The said trial lenses are held. in the notches of said stud by a plurality of. spring fingers 26 secured to the studs 2,4 by screws or the like 2?. The auxiliary trial lenses are adapted to be snapped into and out of fitted relation with the notches 25 andthe. said. notches 25 are so spaced as to retain the said lenses in desired spaced relation with each other. This spaced relation will be described more indetail hereinafter. The annular like members ij are each provided on the side. thereof opposite the forwardly projecting studs. 24 and 25 with an auxiliary trial lens holder 28 having spring fingers 29. for retaining the. trial, lens in axial alignment with the ring I l. The auxiliary lens holder 28 is adapted to support spherical lenses whilethe spring fingers 26 and associated notched studs 23 and 24 are adapted to support cylindrical and prismatic lenses. The auxiliary lens holding studs 23 and 24 are adapted to be rotated through rotation of the rings l1. This is brought about through the provision of an intermediate gear 30 which meshes with a gear 3| mounted on the end of a stem 32 rotatably supported Within a bearing 33 carried by the annular like member l4. The stem 32 is provided with a thumb piece 34 whereby the gear 3| may be rotated with the said rotated movement being transferred through the gear 38 to the annular gear l6. Rotation of the thumb piece 34 therefore causes the ring H to rotate through the train of gears i6, 38 and 3E. A suitable screw or the like 35 threadedly supported on the bearing 33 is adapted to be adjusted into and out of binding relation with the stem 32 so as to lock the gear 3i against rotation when the ring I1 has been rotated to desired position. The purpose of rotating the ring 11 is to move the axis or axes of the auxiliary cylindrical or prismatic lenses supported by the studs 23 and 24 and associated spring fingers 25 to desired meridional position. The proper meridional position is determined through the provision of a suitable protractor or degree scale 36 formed on the outer surface of the arcuate plate sections 2|, see Fig. II. The longitudinal axis of the bearings 33 and the stems 32 rotatably supported thereby are located above the horizontal center line of the annular like members i4 and project outwardly of said annular like members 14 along a line substantially parallel with said horizontal line passing through said annular like members and along a line radial with said annular like members. The bearing portions 33 provide a hinge connection for the temples 31 and support said temples normally above the useful field of side vision when the device is in position of use on the face of an individual under test. The temples 31 are each provided with a portion 33 having a bifurcated end 39 pivotally attached to the bearing portion 33 as illustrated at 48 with the branches of the bifurcation 39 straddling said bearing portion 33, see Figs. I and XII. The portion 38 of each temple is provided with a bearing face 4|. The base of the bifurcation 39 is adapted to be engaged by the end 42 of a blade spring 43 secured to the hearing portion 33 by screws or the like 44. end 42 of the blade spring 43 is adapted to bear against the bearing face 4| when the temples are in extended relation or in position of use. The said springs are adapted to limit the outward pivotal movement of the temples about their pivot connections 48 so that when the temples are moved outwardly beyond a given point the blade springs 43 will be compressed and will tend to resiliently urge the temples inwardly. This function is adapted to cause the temple ends 45 to resiliently grip the sides of the head of the individual. When the temples are folded the blade springs 43 are adapted to extend through the bifurcated ends of the temple. The relatively rigid portions 38 are provided with a slotted recess 46, see Fig. VII,

in which a bar-like intermediate section 41 is pivotally supported as illustrated at 48. Adjacent the pivotal connection 48 of the bar-like section 41 the said bar is provided with opposed edge portions having a point contact 48 with spaced flanges 58 and 5| carried by a screw member 52. The screw 52 is supported within the threaded bore of a boss 53 on the 6 relatively rigid portion 38. The screw 52 is provided with a thumb piece 54 by which it may be rotated. Rotation of the screw in one or the other directions causes the flanged portions 58 and 5| to raise or lower the intermediate barlike portion of the temple about its pivotal connection 48 with said portion 33. The bar like member 41 is of a thickness so as to substantially intimately fit transversely within the slotted recess 46 and has a relatively intimate sliding fit with the side walls of said slotted recess so that there is little if any side play about the pivotal connection 48, The angle of adjustment of the intermediate section 41 is determined through the provision of a suitable scale 55 on the portion 48 and indicator 56 on said portion 41, see Fig. III. This determines the angular disposition of the plane of the lens cells relative to the longitudinal axis of the temples. The section 41, as illustrated in Figs. I and III, extends through a bearing 51 carried by the end of a bar 58 simulating the bar 41. The bar 41 likewise is provided with a bearing member 59 through which the bar 58 slidably extends. The bars 41 and 58 are substantially rectangular in cross-sectional shape and have relatively flat contiguous surfaces adapted to be retained in relatively intimate sliding relation with each other. A suitable coil spring or the like 68 is mounted within the bearing 51 so as to maintain a frictional binding relation between the adjacent portions of the bars 41 and 58. The springs are adapted to retain the sections 41 and 58 in longitudinally adjusted relation with each other. The purpose of this adjustment is to increase or decrease the length of temple so as to meet the requirements of different individuals. The length of temple is determined through the provision of a suitable scale 6| on the side surface of the bar 58. The bearings 51 in which the friction coil springs 60 are housed provide means adapted to be engaged by the finger of the practitioner or examiner who fits the device to the individual to be tested so that the ends 45 of the temples may be quickly and easily adjusted to relatively intimate fit behind the ears of the individual and with the side of the head of said individual. This is brought about by merely moving the housing 51 longitudinally of the bar-like section 41 toward the front of the device. It being understood that the temples are initially adjusted to substantially their greatest length so that when the device is placed on the face the ends 45 of the temples may be eased into position by exerting a forward pressure on the bearing members 51. The central portion of the head I is provided with a housing 62 carrying adjustable supporting mechanism for a nose rest 63. The nose rest 63 comprises a bearing portion 64 pivoted at 65 and 66 adjacent the opposed ends thereof to a bracket 81. The bracket 51 is mounted adjacent the lower end of a slide bar 68, see Figs. II, IV and V. The bar 38 is preferably rectangular or square in cross-section and is slidably supported within a tubular bearing 59 having a bore of a shape to slidably receive the bar 68. The tubular bearing 59 is pivoted to the side walls of the housing 62 internally thereof, as illustrated at 18, and is adapted to swing about said pivots forwardly and rearwardly about the plane of the lens supporting cells l2, The tubular bearing 58 is adjusted about its pivotal connection 18 within the housing: 62 by a thumb screw H threadedly sup ported by a, boss 12 on said housing. The screw has an end. 13 bearing against; the fronts urr-' face of: the tube and adjustment thereof towards the. tubular bearing is adapted. to. move the bearing rearwardly' about. the pivotal connection 19. A suitable blade: spring or the: like 14: secured adjacent one end. thereof to; the tubular member by a screw or the like 75. and having an end 76 hearing against the inner side. wall 1-1 of the housing 62 is adapted. to. re si'liently limit the pivotal. movement of: the tubular bearing about the pivotal connections 19. The spring is. constantly urges the. tubular bearing 69 into engagement with the end 13 of the thumb screw ll. Through rotation of the adjustment screw H the nose bearing portion 64 may be moved forwardly or rearwardly as; desired. The bar 98 is provided with a hollow threaded bore i8. There is threaded: in this bore 79: a screw l9 rotatably supported, by the upper end of the tubular bearing 69, as illustrated at 89. The screw member has an enlarged head portion 8: provided with atra-nsversely extending stud 8.2 which fits within diametrically opposed slots 83 formed in. a cuplike member 84. The, cup-like member 85 is. rotatably supported on a stem 85 mounted in a bearing 89 formed on the housing; 62. The stem 85 has a thumb piece 87 by which it may be rotated; The longitudinal axis of the stud 862 is preferably substantially coaxial with. the axes of the pivot 19 so that when the tubular bearing 69 is tilted forwardly or rearwardly through manipulation of the screw "H the tilt,- ing will. effectively be about the longitudinal axis of the stud 82. The stud 32, fitting within the diametrically opposed slots. 83 in the cup.- like member St, is adapted to permit; rotation of the screw 19 at different positions, of tilting of the tubular. bearing 99 and: the arrangement provides a universal type coupling" between the screws 19 and the thumb piece, 81; When the thumb. piece is rotated the. cup-like member 89 is simultaneously rotated The key-like connection between the stud 82 and the longitudinal slots 83 in the cup-like member transmits said rotary movement to the screw causing it tobe threaded into and out. 18 of the bar 68. This rotation therefore of the screw 19 will move the, bar 99* inwardly and. outwardly of the tubular member 99: depending upon the direction. of rotation of the thumb piece 81'. This adjustment permits: the nose bearing portion 9 3 to be raised or'lowered as desired with respect to the lens supporting cells ofthe device. The. purpose of adjustably supporting the nose bearing portion for upward and downward movement is to provide means whereby the lens cells may be raised or lowered with respect to the line: of straight ahead: vision with the eyes of the individual under test. The purpose of adjustably supporting the nose bearing portion 64' for movement inwardly or outwardly is to move the lens cells and the trial lenses carried thereby into desired spaced relation with the eyes of the individual; This is. important in a trial frame of the character described as the trial lenses which are adapted for use with said trial frame have their power or powers computed for agiven distance of ocular surface from the eyes under test: andthe accurate effective power can only be obtained when the lenses are at their computed: distance from the eyesv under test.

Adjustment.

of the. threaded bore of. the nose bearing, portion. inwardly or outwardly permits: accurate location. of. the ocular surface or: surfaces of the. trial lenses relative to. the: corneas; ofjthe eyes of the individual undei: test; To permit. locating the lenses accurate spaced relation: with the: eyes suitable corneal aligning, means 88 are provided on the outer sides of the; lens cells 1-2.

The corneal. aligning. means comprises supports 89 which are formed. integrally with the annular like. member Hi, see Figs. IX, X and XIV. The supports 8.9- extend oiitwardly of the sides of the annular members I4: substantially along thehorizontal: center line of said annular members and then extends; readwardly,. as illustrated at 99. The rearwardly extending; portions 991 are provided with a central longitudinal slot 9! having a. graduated scale 92 thereon adjacent the lower longitudinal edge of the. slotted; portion 9|. The rearwardly extending portion 90.: has a member 9 9 pivoted thereto, as illustrated. at 94-. Themember' 93 has a deflected: end 95 provided with an edge 96 which. is adapted to cooperatewith a zero line 91': of the scale 92. in. positioning the. device in desired relation. with. the cornea98 of the eye. In using the corneal. aligning: means 88. the practitioner moves the lenscellstoward or away from the eyes until he aligns the edge with. the zero line 91 and. the front surface of the cornea of the eye, as diagrammatically illustrated by the dash line 99 in Fig. X.. This provides a gun sight type of corneal aligning means; whereby the lens cells and lenses carried by said cellsmay be positioned in desired spaced relation with the front surface of the cornea of the eye. The use. of the other graduations of. scale 92 is explained below. When not in. use, the. member 93 is adapted to be swung to a positiorr as. shown in Fig. XIV in compactrelation with: the rearwardly extending portion of the support 89.. The member 93 is held in its forward or its outward position by means of a blade spring lill having an end I92 which. is adapted to engage the outer side surface I90 of the member 93; when. in. adjacent relation with the support 99? and constantly urgesaid member 93 towardssaidsupport so. as toretain it inintimate relation therewith. The blade spring llll, when the member 93 is folded outwardly, as shown in full lines in Fig. X, is adapted to extend through alongitudinal slot I93 in said member and isadapted to bear against an edgesurface I94 of said slottedportion to retain the member 93 in said outward position. The longtudinal slot I93 also enables the cornea of the eye to be viewed when the member 93 is in intimate or closed relation with the rearwardly extending portion '90 of the support. When using test lenses of the type computed to measure the errors of refraction of the. eyes in the so called vertex of: refraction or: effective power; namely, power-calculated from the eyeor ocular side of the lens wherein it is essential that the lenses be positionedatthe calculateddistance from the cornea of the eye, the longitudinal edge 96 of the member 9'31 is preferably aligned with the zero line 97 of the scale. 92 and the front surface 98 of the corneaof. the eye by moving. the lens cells toward or away. from the eyes by adlusting the bridge inwardly or outwardly. This providesB points'of alignment-so that an accurate alignment may: be obtained; It is to be-understood that thelenses must be supported in computed spaced relation with each other so as to have a resultant effective power simulating. the actual power of the prescriptive lenses which are to be permanently used before the eyes. In order to accurately locate the lenses in desired spaced relation with each other the distance between the notches 25 of the studs 23 and 24, which are adapted to support said lenses during use, is calculated to be that of the computed distance at which the lenses were designed to be spaced relative to each other and which when held in said spaced relation will introduce the desired refractive power. The lenses, therefore, of said cells are calculated in effective or vertex refraction as it is sometimes called so that the combined values of said lenses, when in position before the eyes and when at the computed distance from the corneas of the eyes will produce the actual prescriptive value desired. that is, the resultant power of the combination of trial lenses will be that introduced by a single prescriptive lens made to said total power and supported at said computed distance from the eyes. In most instances, with average facial characteristics the trial frame may be positioned in desired location on the face. In some restricted instances, however, due to abnormalities in facial contour, it will not be possible to locate the lens supporting cells in desired spaced relation with the corneas of the eyes. In these instances, therefore, some means must be provided for definitely knowing the amount of off position of the lens cells from the desired zero position before the eyes as the prescriptive correction arrived at from the test must be modified by the amount of off position of the lens cells from the corneas of the eyes in order to obtain the accurate resultant prescriptive power. In order to make this possible, the scale 92 is provided. This scale will indicate the extent of off position from the zero setting by noting which of the scale lines is aligned with the cornea of the eye and by noting its position with respect to the zero mark.

Although the trial frame is designed particularly for use with test lenses of the type set forth above, it is to be understood that they may be used with any desired type of test lenses and the graduated scale 92 and the known spaced relation of the corrected lenses will be quickly effective with all test lenses in arriving at the accurate prescriptive value. When used with lenses of the vertex refraction type no additional computations are necessary from the findings of the test, that is, if the corneal aligning means 88 has its zero setting aligned with the cornea of the eye the lenses are so designed and the trial frame is so designed as to support said lenses in computed spaced relation with each other and the computed distance from the cornea of the eye is such that the power arrived at either through the use of one or a plurality of test lenses will be the accurate prescriptive power required to be introduced in a single prescriptive lens to be permanently worn before the eyes of the patient and at the prescriptive standard distance from the eye.

In adjusting the trial frame to fit the individual under test and for use with test lenses of the type having vertex refraction or the lenses commercially known as additive lenses the temples 31 are first lengthened out. The practitioner or examiner who is to fit the trial frame to the individual or patient under test rests the trial frame adjacent the temple hinge connections with a finger engaging the respective housings containing the friction springs 60. The temples are spread outwardly and the trial frame is then advanced towards the eyes with the temples fitting over the ears of the individual. The nose rest 63 is engaged with the nose of the wearer and is adjusted upwardly, downwardly or inwardly or outwardly until the longitudinal edge 96 and the zero line 91 of the scale 92 are aligned with the respective corneas 9B of the eyes. It is to be understood that prior to placing the trial frame on the face of the individual the lens cells I2 are adjusted to proper spaced relation with each other, that is, to the accurate distance between the pupils of the eyes. This is accomplished by adjusting the indicators Hi5 to the proper fitting on the interpupillary scales I06 formed on the face of the head i, When in this adjusted position the housings containing the friction springs are again engaged by the fingers of the practitioner or examiner and are gradually drawn forward to move the temple ends 45 into proper engagement with the sides of the head and the upper rear portions of the ears of the individual. This will retain the trial frame in desired fitted position before the eyes. A final check is made of the corneal alignment and slight readjustments are made if necessary. The trial lenses are snapped inwardly or outwardly of the lens cells supports l2 during the test and when cylindrical lenses are used the lens cells are rotated in order to obtain the proper axis of the cylinders or prisms as the case may be. The scale 36 on the front of the lens cells will indicate the true axial position of the cylinders or prisms. All of the required adjustments may be made by manipulation of the various thumb pieces H, 34, 54 and 81 without the hands of the operator engaging the face of the individual under test. The proper angle of the lens cells with respect to the line of straight ahead vision may be obtained by adjustment of the thumb piece 54 and this angle may be obtained by the scale and indicator means 5'5 and 56 atthe sides of the temple. The length of the temple required by the individual may be obtained by the scale 6|. The various adiustable parts of the device are all intimately fitted with each other so as to retain the said parts in relatively rigid relation with each other. The construction of the various parts is of the simplest form so that the device may be quickly and easily assembled and inexpensively manufactured. It is particularly pointed out that all adjustments may be positively controlled. A suitable scale I01 is provided on the front of the bridge to indicate the adjusted position of the nose pad 64. The head I, as illustrated in Fig. V1, is provided with a longitudinal guideway I08 which functions in cooperation with the slideway 2 to retain the lens cells in rigid adjusted position. The guideways I08 eliminate forward or rearward play of thelens cells relative to the'head l. The corneal aligning means are each provided with a sightin point N19 for alignment with the estimated center line of slot 91 to aid in obtaining accurate centering of the lens cells with the axes of the corneas of the eyes.

These sighting points aid in obtaining the accurate position of the centers of the lens cells with the eyes or with the line of straight ahead vision of said eyes. The particular arrangement of adjustable support for the nose pad is such that the control button or finger piece adjustment remains in a. fixed position during the adjustment of the nose rest 64. The moving parts are all encased, particularly the various screw members and gears so that there is no danger of having them become entangled with the hair of the individual and are therefore protected against the entrance of dust, dirt and so forth which might hinder the smooth operation of said parts.

It is to be understood that the support for the corneal aligning means may be positioned at any desired "point with reference to the periphery of the lens holders; that both corneal aligning supports need not be in the same horizontal plane, and that their position may be chosen irrespective-of the position of the temple supports.

From the foregoin description it will be seen that simple, efficient and economical means are provided for accomplishing all of the objects and advantages of the invention.

Having described our invention, we claim:

'1. In a trial frame embodying lens holding .means, a, corneal aligning assembly comprising a support extending rearward-lyof the sides of the respectivelens holding means, a member pivoted to said support adjacent the rear end thereof for motion between a longitudinal and a lateral position relative to said support, said member having a vertically disposed front edge portion at its end remote from the pivot and the support having means adapted to be aligned with said front edge portion and with the cornea of an eye sighting through the adjacent lens holding means when said member is in its lateral position, whereby i the lens holding means will be located at a given position before the eyes and said member being adapted to be moved forwardly to an adjacent relation with the support when not in use,

2. In a trial frame embodying lens holding means, a corneal aligning assembly com rising support extending rearwardly of the sides of the respective lens holding means, a member pivoted to said support adjacent the rear end thereof for -motion between a longitudinal and a lateral position relative to said support, said member having a vertically disposed front edge portion at its end remote from the pivot and the support having means adapted to be aligned with said front edge portion and with the cornea of an eye sighting through the adjacent lens holding means when said member is in its lateral position, whereby the lens holding means will be located at a given position before the eyes, said member being adapted to be moved forwardly to an adjacent relation with the support when not in use and resilient means for retaining said pivoted member in either of said positions.

3. In a trial frame embodying lens holding I means, a corneal aligning assembly comprising a support extending rearwardly of the sides of the respective lens holding means, each of said supports having a longitudinal opening therein and aligning means thereon, a, member pivoted to said support adjacent the rear end thereof for motion between a longitudinal and a lateral position relative .to said support, said member having a vertically disposed front edge portion at its end remote .from the pivot adapted to be aligned with the aligning means of said support and with the cornea of an eye sighting through the adjacent lens holding means when said member is in its lateral position, whereby the lens holding means will be located at a given position before the eyes and said member being adapted to be moved forwardly to an adjacent relation with the support when not in use. v

4. In a trial frame embodying lens holding means, a corneal aligning assembly comprising a support extending rearwardly of the sides of the respective lens holding means, each of said supports having a longitudinal opening therein and aligning means thereon, a member pivoted to said support adjacent the rearend thereof for motion between a longitudinal and a lateral position relative to said support, said member having a vertically disposed front edge portion at its end remote from the pivot adapted to be aligned with the aligning means of said support and with the cornea of an eye sighting through the adjacent lens holding means when said member is in its lateral position, whereby the lens holding means will be located at a given position before the eyes, said member being adapted to be moved forwardly to an adjacent relation with the support when not in use and resilient means for retaining said pivoted member in either of said positions.

5. In a trial frame embodyin lens holding means, a corneal aligning assembly comprising a support extending rearwardly of the sides of the respective lens holding means, said support having a longitudinal opening therein and aligning means thereon, a member pivoted to said support adjacent the rear end thereof for motion between a longitudinal and a lateral position relative to said support, said member having a vertically disposed front edge portion at its end remote from the pivot, and having a. pair of bearing surfaces thereon adjacent the pivot, said bearing surfaces being mutually perpendicular and substantially parallel to the pivot axis, a blade spring carried by said support and having a portion engaging one of the bearing surfaces when the member is in its lateral position and being adapted to engage the other bearing surface when said member is in its longitudinal position, said vertically disposed front edge portion and the aligning means on the support being adapted to be aligned with each other and with the cornea of an eye sighting through the adjacent lens holding means whereby the lens holding means will be located at a given position before the eyes.

6. In a trial frame embodying lens holding means, a corneal aligning assembly comprising a support extending rearwardly of the sides of the respective lens holding means, said support having a longitudinal opening therein and aligning means thereon, a member pivoted to said support adjacent the rear end thereof for motion between a longitudinal and a lateral position relative to said support, said member having a vertically disposed front edge portion at its end remote from the pivot, and having mutually perpendicular bearing surfaces thereon adjacent the pivot, a blade spring carried by said support and having a portion engaging one of the bearing surfaces when the member is in its lateral position and being adapted to engage the other bearing surface when said member is in its longitudinal position, said vertically disposed front edge portion and the aligning means on the support being adapted to be aligned with each other and with the cornea of an eye sighting through the adjacent lens holding means whereby the lens holding means will be located at a given position before the eyes, said verticallydisposed front edge portion havin a sighting point thereon adapted to be aligned with the axis of the cornea of the eye during the aligning of the front edge portion with said cornea whereby the center of the lens cell will be accurately aligned with the line of straight ahead vision of the eye, the cornea being visible through the longitudinal opening in the support.

WILLIAM F. PECK.

ALBIN A. GRADISAR.

(References on following page) REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 538,567 Wells Apr. 30, 1895 1,200,862 May Oct. 10, 1916 1,165,597 Henker Dec. 28, 1915 Number 

